Qingliu Wu

Qingliu Wu
Associate Professor
Location:
A-225 Floyd Hall, Mail Stop 5462
Mailing address:
Chemical and Paper Engineering
蜜桃社区 Michigan University
1903 W Michigan Ave
Kalamazoo, MI 49008-5462
Qingliu Wu
Education:
  • Ph. D. (2011) in Chemical Engineering, University of Kentucky
  • M. S. (2004) in Chemical Engineering, Tsinghua University
  • B. S. (2000) in Chemical Engineering, Xiangtan University
Bio:

Dr. Qingliu Wu joined 蜜桃社区 Michigan University in August 2017 as an Assistant Professor in the Department of Chemical and Paper Engineering. Prior to joining 蜜桃社区 Michigan University, Dr. Wu was a Senior Research Scientist at Navitas Advanced Solutions Group (2015-2017). Dr. Wu also received a three-year (2011-2015) postdoctoral training in the Chemical Sciences and Engineering Division at Argonne National Laboratory.

Dr. Wu aims to advance the understanding, design and discovery of advanced materials to address global energy concerns through cutting-edge technologies. Dr. Wu鈥檚 research interest falls into two main areas: (1) Nanostructured materials: synthesis and characterizations; and (2) Advanced energy storage and conversion systems, especially novel materials for Li-ion, Li-S, Li-O2, Na-ion, and all-solid state batteries, aiming at electrical vehicles (EVs), hybrid electrical vehicles (HEVs) and wearable devices. Dr. Wu鈥檚 research interest also includes applications of nanomaterial in energy conversion systems, such as fuel cells (FCs) and solar cells (SCs).

Dr. Wu has authored and co-authored more than 30 peer-reviewed journal papers. Dr. Wu鈥檚 research activities have been strongly supported by the Department of Defense (DOD), Department of Energy (DOE), National Aeronautics and Space Administration (NASA) and several global industrial companies.

Publications:

35. Y. Tang, H. Zhang, J. Li, G. Hou, H. Cao, L. Wu, G. Zheng, Q. Wu*, 鈥 Three-dimensional ordered macroporous Cu/Fe3O4 composite as binder-free anode for lithium-ion batteries鈥, Journal of Alloys and Compounds, 2017, 719, 203

34. Y. Tang, L. Hong, G. Hou, H. Cao, L.Wu, G. Zheng, Q. Wu*, 鈥淎n internal magnetic field strategy to reuse pulverized active materials for high performance: a magnetic three-dimensionally ordered macroporous TiO2/颁辞笔迟/伪-贵别2O3 nanocomposite anode鈥, Chemical Communications, 2017, 53, 5298.

33. Y. Tang, L. Hong, Q. Wu, J. Li, G. Hou, H. Cao, L. Wu, G. Zheng, 鈥淭iO2(B) nanowires arrays on Ti foil substrate as three-dimensional anode for lithium-ion batteries鈥, Electrochimica Acta, 2016, 195, 27.

32. S. Das, S. Nagpure, R. K. G., Q. Wu, S. Z Islam, J. Strzalka and S. E. Rankin, 鈥淧ore orientation effects on the kinetics of mesostructure loss in surfactant template titania thin films鈥, Physical Chemistry Chemical Physics, 2016, 18, 2896.

31. P. Liu, D. Zhou, K. Zhu, Q. Wu*, Y. Wang, G. Tai, W. Zhang, Q. Gu, 鈥淔agot-like 伪`-NaV2O5 Mesocrystals: from Synthesis, Growth Mechanism to Analysis of Na-ion Intercalation/Deintercalation Abilities鈥, Nanoscale, 2016, 8, 1975.

30. X. Meng, S. C Riha, J. A Libera, Q. Wu, H. Wang, A. B Martinson, J. W. Elam, 鈥淭unable Core-Shell Single-Walled Carbon Nanotube-Cu2S Networked Nanocomposites as High-Performance Cathodes for Lithium-ion Batteries鈥, Journal of Power Sources, 2015, 280, 621.

29. Q. Wu, V. A. Maroni, D. J. Gostola, D. J. Miller, D. W. Dees, W. Lu, 鈥 A Raman-based Investigation of the Fate of Li2MnO3 in Lithium- and Manganese-Rich Cathode Materials for Lithium Ion Batteries鈥, Journal of Electrochemical Society, 2015, 162, A1255.

28. W. Lu, Q. Wu, V. A. Maroni, Y. Liu, D. Gosztola, C. Johnson, and D. W. Dees, "Lithium Manganese Rich Transition Metal Oxide As Cathode Material for Lithium Ion Batteries", ECS Transactions, 2014, 59, 127.

27. Q. Wu, Y. Liu, C. S. Johnson, Y. Li, D. W. Dees, W. Lu, 鈥淚nsight into the Structural Evolution of a High-Voltage Spinel for Lithium-Ion Batteries鈥, Chemistry of Materials, 2014, 26, 4750.

26. Q. Wu, T. Tran, W. Lu, J. Wu, 鈥淓lectrospun silicon/carbon/titanium oxide composite nanofibers for lithium ion batteries鈥, Journal of Power Sources, 2014, 258, 39.

25. Y. Cao, K. Zhu, Q. Wu, Q. Gu, J. Qiu, 鈥淗ydrothermally synthesized barium titanate nanostructures from K2Ti4O9 precursors: Morphology evolution and its growth mechanism鈥, Materials Research Bulletin, 2014, 57, 162.

24. I. Bloom, L. Trahey, A. Abouimrane, I. Belharouak, X. Zhang, Q. Wu, W. Lu, and etc., "Effect of Interface Modifications on Voltage Fade In 0.5Li2MnO3-0.5LiNi0.375Mn0.375Co0.25O2 Cathode Materials", Journal of Power Sources, 2014, 249, 509.

23. S. Das, Q. L. Wu, R. K Garlapalli, S. Nagpure, J. W Strzalka, Z. Jiang, S. E Rankin, 鈥淚n-Situ GISAXS Investigation of Pore Orientation Effects on the Thermal Transformation Mechanism in Mesoporous Titania Thin Films鈥, Journal of Physical Chemistry C, 2014, 118, 968.

22. X. Su, Q. Wu, J. Li, X. Xiao, A. Lott, W. Lu, B. W. Sheldon, and J. Wu, 鈥淪ilicon-based Nanomaterials for Lithium-Ion Batteries - A Review Article鈥, Advanced Energy Materials, 2014, 4, 1.

21. Q. Wu, S. Ha, J. Prakash, D. W. Dees, and W. Lu, 鈥淚nvestigations on High Energy Lithium-Ion Batteries with Aqueous Binder鈥, Electrochimica Acta, 2013, 114, 1.

20. H. Zheng, K. Zhu, Q. Wu, J. Liu, J. Qiu, 鈥淧reparation and characterization of monodispersed BaTiO3 nanocrystals by sol鈥揾ydrothermal method鈥, Journal of Crystal Growth, 2013, 363, 300.

19. M. Bettge, Y. Li, K. Gallagher, Y. Zhu, Q. Wu, W. Lu, I. Bloom, D. P. Abraham, " Voltage Fade of Layered Oxides: its Measurement and Impact on Energy Density", Journal of Electrochemical Society, 2013, 160, A2046.

18. H. Gu, J. Guo, H. Wei, Y. Huang, C. Zhao, Y. Li, Q. Wu, N. Haldolaarachchige, D. P. Young, S. Wei, Z. Guo, 鈥淕iant magnetoresistance in non-magnetic phosphoric acid doped polyaniline silicon nanocomposites with higher magnetic field sensing sensitivity鈥, Physical Chemistry Chemical Physics, 2013, 15, 10866.

17. W. Lu, Q. Wu and D. Dees, 鈥淓lectrochemical Characterization of Lithium and Manganese Rich Composite Material for Lithium Ion Batteries鈥, Journal of The Electrochemical Society, 2013, 160, A950.

16. P. Liu, K. Zhu, Y. Gao, Q. Wu, J. Liu, J. Qiu, Q. Gu, H. Zheng, 鈥淯ltra-long VO2 (A) nanorods using the high-temperature mixing method under hydrothermal conditions: synthesis, evolution and thermochromic properties鈥, CrystEngComm, 2013, 15, 2753.

15. Q. Wu, W. Lu, M. Miranda, T. K. Honaker-Schroeder, K. Y. Lakhsassi and D. Dees, 鈥 Effects of Lithium Difluoro(Oxalate)Borate on the Performance of Li-Rich Composite Cathode in Li-ion Battery鈥, Electrochemistry Communications, 2012, 24, 78.

14. Q. L. Wu, J. Li, R. D. Deshpande, N. Subramanian, S. E. Rankin, F. Yang and Y. T. Cheng, 鈥淎ligned TiO2 Nanotube Arrays as Durable Lithium-Ion Battery Negative Electrodes鈥, Journal of Physical Chemistry C, 2012, 116, 18669.

13. X. Su, Q. L. Wu, X. Zhan, J. Wu, S. Wei and Z. Guo, 鈥淎dvanced Titania Nanostructures and Composites for Lithium Ion Battery鈥, Journal of Materials Science, 2012, 47, 2519.

12. Q. L. Wu, N. Subramanian, J. W. Strzalka, Z. Jiang and S. E. Rankin, 鈥淭uning the Mesopore Structure of 3D Hexagonal Thin Films Using Butanol as a Co-Solvent鈥, Thin Solid Films, 2012, 520, 3558.

11. Q. L. Wu, S. E. Rankin, 鈥淭uning the Mesopore Size of Titania Thin Films Using a Polymeric Swelling Agent鈥, Journal of Physical Chemistry C, 2011, 115, 11925.

10. Q. L. Wu, N. Subramanian, S. E. Rankin, 鈥淗ierarchically Porous Titania Thin Film prepared by Controlled Phase Separation and Surfactant Templating鈥, Langmuir, 2011, 27, 9557.

9. Q. L. Wu, S. E. Rankin, 鈥淭uning the Wall Thickness and Pore Orientation in Mesoporous Titania Films Prepared with Low鈥揟emperature Aging鈥, Journal of Sol-Gel Science and Technology, 2011, 60, 81.

8. Q. L. Wu, L. Xiang, Y. Jin, 鈥淚nfluence of CaCl2 on the Hydrothermal Modification of Mg(OH)2鈥, Powder Technology, 2006, 165,100-104.

7. Li. Z., Wu Q., Xiang L., Wei F., 鈥淚nfluence of synthesis condition on magnesium hydroxide properties by two-step reaction on pilot scale鈥, Journal of Chemical Industry and Engineering (China), 2005, 56, 1106.

6. Li Z., Wu Q., Xiang L., Wei F., 鈥淓ffect of Hydrothermal Modification Conditions on Preparation of Flame Retardant Mg(OH)2 in Large-scale Experimental Set-up鈥, Journal of Chemical Industry and Engineering (China), 2005,56, 1349.

5. Xiang L., Wang T., Wu Q., Jin Y., 鈥淎gglomeration and Precipitation of Mg(OH)2 Particles in the Presence of Polyacrylamide鈥, The Chinese Journal of Process Engineering, 2005, 5, 58.

4. Li Z., Wu Q., Xiang L., Wei F., 鈥淗ydrothermal Modification of Flame Retardant Mg(OH)2 Synthesized via NH3.H2O Route in a Large-Scale Experimental Set-up鈥, Sea-Lake Salt and Chemical Industry, 2004, 6, 12.

3. Li Z., Wu Q., Xiang L., Wei F., 鈥淪tudies on Preparation of Flame Retardant Mg(OH)2 in a Large-scale Experimental Set-up with Different Temperature鈥, Sea-Lake Salt and Chemical Industry, 2004, 5, 1.    

2. Yu J., Xiang L., Wu Q., Jin Y., 鈥淭he influence of temperature on the crystalline character of magnesium hydroxide in the process of circulating fluidization鈥, Inorganic Chemicals Industry, 2004, 1, 26.    

1. Wu Q., Xiang L., Wang T., Jin Y., 鈥淪tudy on the Flocculation Process of Mg(OH)2 Particles鈥, Sea-Lake Salt and Chemical Industry, 2004, 33(3), 1-4.

 

Book Chapter

J. Li, Q. Wu*, J. Wu, 鈥淪ynthesis of Nanoparticles via Solvothermal and Hydrothermal Methods鈥, Handbook of Nanoparticles, Editor Mahmood Aliofkhazraei, 2015, ISBN: 978-3-319-13188-7.

 

Patents

2. Cathode and Cathode Materials for Lithium Sulfur Batteries, WO2017091271 A3 (2017).

1. Synthesis of Mg(OH)2 Retardant via Pressure Ammonium Precipitation-Hydrothermal Modification Method, Chinese patent, ZL 0510086473.9 (2005).